KR960006160Y1 - Spectacles for stereoscopic pictures - Google Patents

Abstract

None.

Description

Stereoscopic Glasses

1 is a view showing an embodiment of the present invention.

2 is a perspective view of one embodiment.

3 is a perspective view of another embodiment of the present invention.

4 is a front view of another embodiment.

* Explanation of symbols for main parts of the drawings

1: Glasses for stereoscopic images 2: High density lens

3: thinner lens 4: frame

5, 6: arrow

The present invention relates to a three-dimensional image glasses.

The present invention is a stereoscopic image glasses using the principle of the pendulum of Pulfrich, in order to obtain accurate stereoscopic image, the moving direction of the moving object in the image or the moving direction of the imaging camera, In this case, it is possible to quickly and easily determine which eye has a high density or thin lens.

There are glasses for stereoscopic images for observing stereoscopic images using the principle of the pendulum of Fulfurich.

The glasses for stereoscopic images have a difference in optical density between one lens and the other lens, as described in, for example, Japanese Patent Application Laid-Open No. 59 (1984) -204023. For example, if the image is observed with a high density lens on the right eye and a light lens on the left eye, the object moving from left to right in the image appears to be three-dimensional. In addition, when the image is observed with a high density lens on the left eye and a light lens on the right eye, an object moving from the right to the left appears to be three-dimensional.

Therefore, by using the glasses for stereoscopic images, stereoscopic images can be observed even if a flat image display device such as a television receiver is used, for example.

However, when using the glasses for stereoscopic images as described above, according to the direction of movement of the object in the image, it is not determined whether to wear a high-density lens or a thin lens to the left eye or the right eye, Accurate stereoscopic images cannot be observed.

However, it has been inconvenient because no studies have been conducted to make this judgment quickly and easily.

Thus, the present invention, in the three-dimensional image mirror using the principle of the pendulum of Fulfriger, in order to obtain an accurate three-dimensional image, the moving direction of the moving object in the image or the moving direction of the photographing camera to the lens by printing or bonding It is to display, or to display the frame by printing, gluing or molding.

According to the present invention, it is possible to quickly and easily determine which of the lenses having a high density or thin lens is properly applied to the eye.

Embodiments of the present invention will be described in detail with reference to the drawings.

1 is a view showing a three-dimensional image glasses 1 of an embodiment of the present invention, A in Figure 1 is a top view, B is the front, C and D is the side, E is the surface facing the observer's eyes. .

(4) is a frame, (2) is a lens with a high optical density, (3) is a lens with a thin optical density, and (8a) and (8b) are eyeglasses. And 10a is a main part, and when an observer wears this eyeglasses 1, an observer avoids a nose. And 10b is also the same recessed part as the recessed part 10a, and has the symmetrical shape with recessed part 10a and 10b. That is, the shape of the spectacles 1 is symmetrical in the vertical direction, and the spectacles 1 can be worn even if the observer rotates the spectacles 1 to reverse the upper and lower sides.

(5) is an arrow, and this arrow 5 is displayed between the lens 2 and the lens 3 on the side opposite to the observer's eye of the frame 4. This arrow 5 indicates the direction of movement of the object in the image that can be obtained by the observer observing the stereoscopic image accurately through the glasses 1. In other words, this arrow indicates the direction from the thinner lens 3 to the denser lens 2.

Moreover, (7a)-(7d) is a hinge, It is comprised so that the leg 8a can be rotated centering around hinges 7a and 7b, and centering around hinges 7c and 7d. It is comprised so that the leg 8b may be rotated. The hinges 7a and 7b protrude from a surface of the frame 4 that faces the observer's eye, and the hinges 7a and 7b are formed at intervals. Thus, recesses are formed by the hinges 7a and 7b. The hinges 7d and 7c are also formed in the same manner as the hinges 7a and 7b, and the recessed portions 9b are formed by the hinges 7d and 7c.

When the observer is wearing general, for example, myopia glasses, when the stereoscopic glasses 1 are put on the glasses, the hinges of the general glasses are inserted into the recesses 9a and 9b, thereby creating a stereoscopic image. The image glasses 1 are supported by the hinges of the general glasses to be in a stable state.

2 is a perspective view of the glasses 3 for stereoscopic images described above.

When the observer wears the glasses 1, if the object in the image to be observed moves, for example, from left to right, the observer can easily check the direction indicated by the arrow 5 before wearing the glasses 1. In the example of FIG. 2, the arrow 5 indicates the direction from the left to the right, and coincides with the moving direction of the object, so that the dark lens 2 is the right eye and the thin lens 3 is the left eye. The glasses 1 can be put on properly.

On the other hand, if an object in the image moves from the right to the left, the observer indicates the direction indicated by the arrow 5 shown in the reverse direction, so that the eyeglasses 1 are rotated in reverse and the arrow 5 is moved from the right. When the spectacles 1 are worn with the arrow to the left, the spectacles 1 can be worn correctly so that the dark lens 2 becomes the left eye and the thin lens 3 becomes the right eye.

3 is a perspective view of a stereoscopic image glasses 1 according to another embodiment of the present invention, and the same reference numerals are given to those equivalent to the example of FIG. The difference between the example of FIG. 3 and the example of FIG. 1 is that the arrow 6 indicating the moving direction of the object is not a part of the frame 4 between the lens 2 and 3, It is indicated at the end of the lens 2.

Also in the case of the example of FIG. 3, the viewer can easily wear the glasses 1 similarly to the example of FIG.

In the example of FIG. 3, the arrow 6 may be displayed on the lens 2 instead of the lens 3, or may be displayed on both the lenses 2 and 3.

In addition, the arrow 6 may be displayed anywhere on the opposite side to the side facing the eye of the observer of the lenses 2 and 3, or the side facing the eye.

In addition, the arrows 5 and 6 may be displayed on the frame 4 or the lenses 2 and 3 by printing. Moreover, you may adhere | attach and display the seal etc. of an arrow.

The arrow 6 may form the arrow 9 by forming the frame as shown in FIG. 4, in addition to printing or sealing the lens.

Then, the object can be moved in the video image by moving the photographing camera to actually capture the object. Therefore, the movement direction of the photographing camera may be displayed on the spectacles 1 by an arrow. Also in this case, since the direction of the arrow becomes inverse to the direction of movement of the object in the image, a description or the like describing the effect is necessary.

In the above-described example, the moving direction of the object or the moving direction of the photographing camera is indicated by an arrow. However, the moving direction of the object may be different from the arrow as long as the moving direction can be displayed.

As described above, according to the present invention, in the glasses for stereoscopic images using the principle of the pendulum of Fulfriger, in order to obtain an accurate stereoscopic image, the moving direction of the moving object in the image or the moving direction of the photographing camera is used for the stereoscopic image. Since it is displayed on the glasses, it is possible to quickly and easily determine which eye has a high density lens or a thin lens correctly.

Claims (1)

In the glasses for stereoscopic images using the principle of the pendulum of Fulfriger, the moving direction of the moving object or the moving camera in the image is displayed on the lens by printing or bonding in order to obtain accurate stereoscopic image. Or stereoscopic image glasses arranged to be displayed on a frame by printing, gluing or molding.